Diagnostic Trouble Code (DTC) Guide for Omnitek ECM 64A/66A/88A

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1 Diagnostic Trouble Code (DTC) Guide for Omnitek ECM 64A/66A/88A Omnitek Engineering Corp Keystone Way, #101 Vista, CA Tel Fax Copyright 2006 Omnitek Engineering, Corp. All rights reserved.

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3 Comments, questions or reporting of any errors found regarding this document are welcome and appreciated. Please direct them to: Omnitek Engineering, Corp S. Rancho Santa Fe Rd. San Marcos, CA USA Tel Fax. support@omnitekcorp.com - i -

4 TABLE OF CONTENTS TABLE OF CONTENTS... II 1 INTRODUCTION DTC TYPE DEFINITION Trip Logic DTC Type A DTC Type A DTC Type B DTC Type B DTC Type C DTC Type C DTC Type C DTC Type X DTC Type Y DTC Status Update Logic DTC Conditions Met Trip Conditions Met ECM Key-Off / Powerdown Sequence Snapshot Logic Malfunction Indicator Lamp Logic End Of Line / Repaired Vehicle DTC Check DIAGNOSTIC TROUBLE CODE GUIDE DTC P0006 Fuel Shutoff A Solenoid Circuit Low DTC P0007 Fuel Shutoff A Solenoid Circuit High DTC P0031 Oxygen Sensor 1, Bank 1, Heater Low DTC P0032 Oxygen Sensor 1, Bank 1, Heater High DTC P0037 Oxygen Sensor 2, Bank 1, Heater Low DTC P0038 Oxygen Sensor 2, Bank 1, Heater High DTC P0051 Oxygen Sensor 1, Bank 2, Heater Low ii -

5 3.8 DTC P0052 Oxygen Sensor 1, Bank 2, Heater High DTC P0057 Oxygen Sensor 2, Bank 2, Heater Low DTC P0058 Oxygen Sensor 2, Bank 2, Heater High DTC P0068 MAP/MAF/Throttle Position Correlation DTC P0087 Fuel Rail/System Pressure Too Low DTC P0088 Fuel Rail/System Pressure Too High DTC P0093 Large Fuel Rail Leak DTC P0094 Small Fuel Rail Leak DTC P0102 Mass Air Flow Sensor Low DTC P0103 Mass Air Flow Sensor High DTC P0107 Manifold Absolute Pressure Sensor Low DTC P0108 Manifold Absolute Pressure Sensor High DTC P0112 Intake Air Temperature Sensor Low DTC P0113 Intake Air Temperature Sensor High DTC P0117 Engine Coolant Temperature Sensor Low DTC P0118 Engine Coolant Temperature Sensor High DTC P0122 Throttle Position Sensor Low DTC P0123 Throttle Position Sensor High DTC P0125 Insufficient Coolant Temperature for Closed-Loop DTC P0126 Insufficient Coolant Temperature for Stable Operation DTC P0127 Intake Air Temperature Too High DTC P0128 Thermostat Performance DTC P0129 Barometric Pressure Too Low DTC P0131 Oxygen Sensor 1, Bank 1, Voltage Low DTC P0132 Oxygen Sensor 1, Bank 1, Voltage High DTC P0133 Oxygen Sensor 1, Bank 1, Sluggish DTC P0134 Oxygen Sensor 1, Bank 1, Inactivity DTC P0137 Oxygen Sensor 2, Bank 1 Voltage Low DTC P0138 Oxygen Sensor 2, Bank 1, Voltage High DTC P0139 Oxygen Sensor 2, Bank 1, Slow response DTC P0140 Oxygen Sensor 2, Bank 1, Inactivity DTC P0182 Fuel Temperature Sensor Low DTC P0183 Fuel Temperature Sensor High iii -

6 3.41 DTC P0192 Fuel Rail Pressure Sensor Low DTC P0193 Fuel Rail Pressure Sensor High DTC P0217 Engine Overheat DTC P0219 Engine Over Speed DTC P0222 Throttle Position Sensor B Low DTC P0223 Throttle Position Sensor B High DTC P0234 Engine Over Boost Condition DTC P0236 Boost Pressure Sensor Performance DTC P0237 Boost Pressure Sensor Low DTC P0238 Boost Pressure Sensor High DTC P0245 Turbocharger Wastegate Solenoid Circuit Low DTC P0246 Turbocharger Wastegate Solenoid Circuit High DTC P0261 Injector 1 Circuit Low DTC P0262 Injector 1 Circuit High DTC P0263 Injector 1 Contribution/Balance DTC P0264 Injector 2 Circuit Low DTC P0265 Injector 2 Circuit High DTC P0266 Injector 2 Contribution/Balance DTC P0267 Injector 3 Circuit Low DTC P0268 Injector 3 Circuit High DTC P0269 Injector 3 Contribution/Balance DTC P0270 Injector 4 Circuit Low DTC P0271 Injector 4 Circuit High DTC P0272 Injector 4 Contribution/Balance DTC P0273 Injector 5 Circuit Low DTC P0274 Injector 5 Circuit High DTC P0275 Injector 5 Contribution/Balance DTC P0276 Injector 6 Circuit Low DTC P0277 Injector 6 Circuit High DTC P0278 Injector 6 Contribution/Balance DTC P0279 Injector 7 Circuit Low DTC P0280 Injector 7 Circuit High DTC P0281 Injector 7 Contribution/Balance iv -

7 3.74 DTC P0282 Injector 8 Circuit Low DTC P0283 Injector 8 Circuit High DTC P0284 Injector 8 Contribution/Balance DTC P0297 Vehicle Over Speed DTC P0300 Random Misfire DTC P0301 Misfire, Cylinder DTC P0302 Misfire, Cylinder DTC P0303 Misfire, Cylinder DTC P0304 Misfire, Cylinder DTC P0305 Misfire, Cylinder DTC P0306 Misfire, Cylinder DTC P0307 Misfire, Cylinder DTC P0308 Misfire, Cylinder DTC P0313 Misfire Detected with Low Fuel DTC P0327 Knock Sensor 1 Low DTC P0328 Knock Sensor 1 High DTC P0332 Knock Sensor 2 Low DTC P0333 Knock Sensor 2 High DTC P0335 Crankshaft Position Sensor Circuit Fault DTC P0340 Camshaft Position Sensor Fault DTC P0420 Catalyst System Low Efficiency DTC P0462 Fuel Quantity Sensor Low DTC P0463 Fuel Quantity Sensor High DTC P0502 Vehicle Speed Sensor Low DTC P0503 Vehicle Speed Sensor High or Erratic DTC P0506 Idle Control System RPM Too Low DTC P0507 Idle Control System RPM Too High DTC P0508 Idle Air Control Circuit Low DTC P0509 Idle Speed Control Circuit High DTC P0522 Engine Oil Pressure Sensor Low DTC P0523 Engine Oil Pressure Sensor High DTC P0524 Engine Oil Pressure Low DTC P0530 Air Conditioning Pressure Sensor Circuit Error v -

8 3.107 DTC P0534 Air Conditioning Refrigerant Loss DTC P0545 Exhaust Temperature Sensor Low DTC P0546 Exhaust Temperature Sensor High DTC P0561 System Voltage Unstable DTC P0562 System Voltage Low DTC P0563 System Voltage High DTC P0603 Keep-Alive Memory Fault DTC P0604 RAM Fault DTC P0605 Flash/ROM Fault DTC P0606 ECM Fault DTC P0615 Starter Control Relay Circuit DTC P0622 Alternator Field Current Monitor Fault DTC P0636 Power Steering Control Relay Circuit Open DTC P0637 Power Steering Control Relay Circuit Shorted DTC P0638 Throttle Control Performance DTC P0642 Sensor Reference Voltage A Low DTC P0643 Sensor Reference Voltage A High DTC P0646 A/C Control Relay Circuit Open DTC P0647 A/C Control Relay Circuit Shorted DTC P0650 Malfunction Indicator Lamp Circuit Fault DTC P0652 Sensor Reference Voltage B Low DTC P0653 Sensor Reference Voltage B High DTC P0654 Engine Speed Output Circuit Fault DTC P0655 Overheat Lamp Circuit Fault DTC P0656 Fuel Level Output Circuit Fault DTC P0657 Actuator Power Control Relay Circuit Open DTC P0658 Actuator Power Voltage Low DTC P0659 Actuator Power Voltage High DTC P0686 Power Control Relay Circuit Low DTC P0687 Power Control Relay Circuit High DTC P0691 Fan 1 Relay Control Circuit Low DTC P0692 Fan 1 Relay Control Circuit High DTC P0693 Fan 2 Relay Control Circuit Low vi -

9 3.140 DTC P0694 Fan 2 Relay Control Circuit High DTC P0695 Fan 3 Relay Control Circuit Low DTC P0696 Fan 3 Relay Control Circuit High DTC P0698 Sensor Reference Voltage C Low DTC P0699 Sensor Reference Voltage C High DTC P1134 Oxygen Sensor 1, Bank 1, Erratic Air-Fuel Ratio DTC P1135 Oxygen Sensor 1, Bank 1, Oxygen Sensor Lean Shift DTC P1136 Oxygen Sensor 1, Bank 1, Oxygen Sensor Rich Shift DTC P1137 Oxygen Sensor 1, Bank 1, Oxygen Sensor High Impedance DTC P1138 Oxygen Sensor 1, Bank 1, Oxygen Sensor Overheat Condition DTC P1517 Backup TPS Data Does Not Match DTC P1518 Unable to complete throttle zero process DTC P1519 No Backup TPS Zero Data Found DTC P1520 No Primary TPS Zero Data Found DTC P1521 Throttle Resting Position Incorrect DTC P1522 Throttle Resting Position Incorrect After Span DTC P1524 Low Oil Pressure Lamp Circuit Fault DTC P1525 Customer-Specific Lamp Circuit A Fault DTC P1526 Customer-Specific Lamp Circuit B Fault DTC P1560 Low Coolant Level Lamp Circuit Fault DTC P1609 Calibration/Firmware Mismatch DTC P1630/P1631 Electronic Throttle Driver Overheat DTC P1632 Electronic Throttle Driver Overheat Shutdown DTC P1633 Electronic Throttle Driver Overvoltage Shutdown DTC P1655 Coolant Temperature Output Circuit Fault DTC P1656 Low Fuel Lamp Circuit Fault DTC P1657 Stop Engine Lamp Circuit Fault DTC P1661 Internal Power Supply Voltage Low DTC P1662 Internal Power Supply Voltage High DTC P1666 Fuel Shutoff C Solenoid Circuit Low DTC P1667 Fuel Shutoff C Solenoid Circuit High DTC P1690 Maintenance Reminder DTC P2096 Post Catalyst Fuel Trim System Too Lean vii -

10 3.173 DTC P2097 Post Catalyst Fuel Trim System Too Rich DTC P2100 Throttle Actuator Control Motor Circuit Open DTC P2102 Throttle Actuator Control Motor Circuit Low DTC P2103 Throttle Actuator Control Motor Circuit High DTC P2111 Throttle Stuck Open DTC P2112 Throttle Stuck Closed DTC P2122 Accelerator Pedal Position Sensor D Low DTC P2123 Accelerator Pedal Position Sensor D High DTC P2127 Accelerator Pedal Position Sensor E Low DTC P2128 Accelerator Pedal Position Sensor E High DTC P2132 Accelerator Pedal Position Sensor F Low DTC P2133 Accelerator Pedal Position Sensor F High DTC P2135 Throttle Position Sensor A-B Correlation DTC P2138 Accelerator Pedal Position Sensor D-E Correlation DTC P2139 Accelerator Pedal Position Sensor D-F Correlation DTC P2139 Accelerator Pedal Position Sensor E-F Correlation DTC P2172 Sudden High Airflow Detected DTC P2173 High Airflow Detected DTC P2174 Sudden Low Airflow Detected DTC P2175 Low Airflow Detected DTC P2176 Idle Position Not Learned DTC P2177 Fuel System Too Lean off-idle, Bank DTC P2178 Fuel System Too Rich off-idle, Bank DTC P2187 Fuel System Too Lean at Idle, Bank DTC P2188 Fuel System Too Rich at Idle, Bank DTC P2191 Fuel System Too Lean At High Load, Bank DTC P2192 Fuel System Too Rich At High Load, Bank DTC P2195 Oxygen Sensor 1, Bank 1, Signal Stuck Lean DTC P2196 Oxygen Sensor 1, Bank 1, Signal Stuck Rich DTC P2231 Oxygen Sensor 1, Bank 1, Shorted to Heater DTC P2243 Oxygen Sensor Reference Circuit, Bank 1, Sensor DTC P2261 Turbocharger Bypass Valve Mechanical DTC P2262 Turbocharger Boost Pressure - Mechanical viii -

11 3.206 DTC P2263 Turbocharger Boost Pressure System Performance DTC P2270 Oxygen Sensor 2, Bank 1, Signal Stuck Lean DTC P2271 Oxygen Sensor 2, Bank 1, Signal Stuck Rich DTC P2297 Oxygen Sensor 1, Bank 1, Signal Stuck Rich During Deceleration DTC P2299 Accelerator Pedal Position Sensor and Brake Switch Incompatible DTC P2300 Ignition Coil 1 Circuit Primary Low Current DTC P2301 Ignition Coil 1 Circuit Primary High Current DTC P2302 Ignition Coil 1 Circuit Secondary Fault DTC P2303 Ignition Coil 2 Circuit Primary Low Current DTC P2304 Ignition Coil 2 Circuit Primary High Current DTC P2305 Ignition Coil 2 Circuit Secondary Fault DTC P2306 Ignition Coil 3 Circuit Primary Low Current DTC P2307 Ignition Coil 3 Circuit Primary High Current DTC P2308 Ignition Coil 3 Circuit Secondary Fault DTC P2309 Ignition Coil 4 Circuit Primary Low Current DTC P2310 Ignition Coil 4 Circuit Primary High Current DTC P2311 Ignition Coil 4 Circuit Secondary Fault DTC P2312 Ignition Coil 5 Circuit Primary Low Current DTC P2313 Ignition Coil 5 Circuit Primary High Current DTC P2314 Ignition Coil 5 Circuit Secondary Fault DTC P2315 Ignition Coil 6 Circuit Primary Low Current DTC P2316 Ignition Coil 6 Circuit Primary High Current DTC P2317 Ignition Coil 6 Circuit Secondary Fault DTC P2318 Ignition Coil 7 Circuit Primary Low Current DTC P2319 Ignition Coil 7 Circuit Primary High Current DTC P2320 Ignition Coil 7 Circuit Secondary Fault DTC P2321 Ignition Coil 8 Circuit Primary Low Current DTC P2322 Ignition Coil 8 Circuit Primary High Current DTC P2323 Ignition Coil 8 Circuit Secondary Fault DTC P2336 Cylinder 1 Above Knock Threshold DTC P2337 Cylinder 2 Above Knock Threshold DTC P2338 Cylinder 3 Above Knock Threshold DTC P2339 Cylinder 4 Above Knock Threshold ix -

12 3.239 DTC P2340 Cylinder 5 Above Knock Threshold DTC P2341 Cylinder 6 Above Knock Threshold DTC P2342 Cylinder 7 Above Knock Threshold DTC P2343 Cylinder 8 Above Knock Threshold DTC P2428 Exhaust Overheat DTC P2560 Engine Coolant Level Low DTC P2626 Oxygen Sensor 1, Bank 1, Trim Circuit Open DTC P2666 Fuel Shutoff B Solenoid Circuit Low DTC P2667 Fuel Shutoff B Solenoid Circuit High DTC U1110 Antitheft Module Triggered MODE 6 DATA GUIDE APPENDIX A: YOUR ATMOSPHERIC PRESSURE x -

13 1 INTRODUCTION This document describes diagnostic trouble code (DTC) logic used in the ECM 64A, 66A and 88A Engine Control Module (ECM) from Omnitek Engineering, Corp. Diagnostic trouble codes are used by the engine control module to help identify malfunctioning or unusual equipment or operation. If the calibrator desires, the operator of the vehicle can be notified with the dashboard malfunction indicator lamp (MIL) or other specific-function indicator lamp. While DTC diagnosis is a very powerful tool, the software can only diagnose what it has been programmed to recognize, and the actions taken by the system will depend upon the programming by the calibrator and system integrator. Properly set up, the DTC functions will help diagnose equipment problems, provide useful information to the operator, maintain compliance with exhaust emission legislation, identify abusive operation, and take appropriate protective action before equipment damage occurs. A secondary objective of correct DTC calibration is not setting a code or turning on a MIL unless there is a problem significant enough to warrant repair. DTC calibration requires knowing your equipment well enough that the correct balance can be achieved. The reactive, proactive and protective logic used in response to diagnoses made by the ECM are not necessarily appropriate for all vehicles and engines, and some jurisdictions may require DTC logic or responses different from those reflected in this document. Proper functioning of the DTC logic relies on careful calibration of many parameters which vary between end-user applications. Engine damage, component damage or non-compliant exhaust emissions may result from improper calibration or inappropriate control logic for specific needs. It is the responsibility of the calibrator to ensure that DTC calibration and logic meet the needs of the application and the requirements of the law. We disclaims all responsibility for damages or consequences of DTC s and associated software that arise from use of the ECM. The limits shown in this document are typical limits, for specific vehicle applications, these numbers may be modified in the diagnostic system calibration

14 2 DTC TYPE DEFINITION 2.1 Trip Logic A trip consists of sufficient vehicle operation to run its various diagnostic monitors. Four trip flags are used in the ECM. A quick trip consists of: At least 45 seconds of engine running time At least 10 seconds with one of: o greater than 60 kpa a manifold pressure OR o greater than 15% desired torque (electronic throttle systems only) OR o vehicle speed greater than 25 km/h A normal trip consists of: at least four minutes of loaded operation with one of: o greater than 60 kpa a manifold pressure OR o greater than 15% desired torque (electronic throttle systems only) OR o vehicle speed greater than 25 km/h at least two minutes of idle operation after at least one minute of loaded operation an engine start and an engine stop cycle Start coolant temperature lower than 50 degrees C Achieves a coolant temperature of at least 65 degrees C At least ten minutes of run time An oxygen sensor trip also adds sufficient time to the generic trip to accumulate 256 rich-lean cycles at a steady state. An oxygen sensor impedance check trip also adds a test completion flag to the generic trip rules. Note that a trip is used in the diagnostic logic regardless of if some test conditions are not met this tends to reduce the likelihood of the malfunction lamp illuminating for non-critical faults, and also facilitates earlier lamp extinguishing. For EOBD compliance, this logic will need to be modified so that each diagnostic trouble code has its own trip conditions

15 2.2 DTC Type A1 Emissions related Likely immediate driveability and emissions effects Immediate DTC stored Stores freeze-frame data at time of fault MIL illuminates immediately 2.3 DTC Type A2 Emissions related Stores freeze-frame data at time of fault MIL will illuminate after completion of the first quick trip with a fault 2.4 DTC Type B Emissions related After two consecutive quick trips with a fault, MIL is illuminated. 2.5 DTC Type B3 Emissions related MIL circuit fault only This DTC type is only utilized for MIL circuit faults where the MIL cannot be illuminated

16 2.6 DTC Type C1 Not emissions related Immediate DTC set Immediate MIL illumination No freeze-frame data will be stored 2.7 DTC Type C2 Not emissions related On quick trip with first fault, pending DTC stored No freeze-frame data will be stored MIL will illuminate after two consecutive quick trips with a fault 2.8 DTC Type C3 Not emissions related Current DTC will be stored MIL will not illuminate for this fault type 2.9 DTC Type X This DTC has been disabled and will not appear on a scan tool Backup or alternative operating strategies will still be enabled when this fault is detected 2.10 DTC Type Y In the case of a catalyst-damaging misfire, the Malfunction Indicator Lamp will flash at 1 Hz. This will appear on a scan tool as a pending DTC until the misfire diagnostic logic determines that a type A or B DTC is required

17 2.11 DTC Status Update Logic DTC updates are performed at specific times during the ECM s operation. The operation of the diagnostic logic is in line with OBD-II and EOBD guidelines. The operation of these is summarized as follows: DTC Conditions Met When the DTC conditions are met (the moment the monitor logic detects a fault), a pending DTC will be set for all DTC s except for types A1 and C1. For types A1 and C1, a current DTC will be set. The DTC update/erase counter will be cleared. If a pending DTC was already present, a flag is set so that during the next power-down cycle, the fault status will be changed to current Trip Conditions Met When the trip conditions are met, a flag is set that indicates that the current engine key cycle contained at least one valid trip. No specific actions are performed at this time ECM Key-Off / Powerdown Sequence When the ECM powers down, the following events occur: The ECM turns off injector and fuel solenoid signals to stop the engine The idle air control motor (if used) is re-zeroed The throttle span (on ETC systems) is checked and if required, a zero cycle is performed All nonvolatile items are written to EEPROM including the current DTC status. TRIP STATUS is not reflected in this update. If configured, a fuel leakage check is performed by the ECM. This can take up to ten minutes. If configured, the catalyst temperature model is maintained until the estimated catalyst temperature drops within 16 degrees C of engine coolant temperature. If a valid quick trip has occurred, the following actions are performed: o If a pending DTC has been set in this key cycle with type A2, the ECM will change the fault status to a current fault. The MIL will illuminate at the next engine start. o If a pending DTC has been set in this key cycle with a type other than A2, AND the DTC was previously in a pending state, the ECM will change the fault status to a current fault. The MIL will illuminate at the next engine start. If a valid normal trip has occurred, the following actions are performed o If a pending DTC has not been set in this key cycle, but a pending DTC is present in the DTC memory, a counter is incremented. If this counter reaches two, the DTC is cleared from memory

18 o If a current DTC is present, the DTC clear counter is incremented. If the counter reaches two, the DTC status is changed to history. If this DTC was causing the MIL to be on, it will remain off at the next engine start cycle. o If a history DTC is present, the DTC clear counter is incremented. If the counter reaches 40, the DTC is erased from memory. The associated snapshot (if any) is erased at the same time. The DTC memory is written to EEPROM. The ECM will now power down. If the key switch is turned on before these events have finished, the process is stopped and the diagnostic memory is maintained. No trip DTC logic will be run until the next key-off cycle Snapshot Logic A snapshot / freeze-frame is stored when the conditions to set a DTC occur, subject to the DTC rules described in the appropriate DTC type section. Different engine management controllers have a different snapshot storage capacity. Most ECM controllers are equipped with a storage capacity of four snapshots. The conditions for updating the snapshots are: A DTC may have only one snapshot. A recurrence of the same DTC will result in updating the snapshot data. Snapshots are cleared when a DTC clear command is issued from a scan tool. Snapshots are cleared when the DTC is erased from memory. It is not cleared when the DTC changes from current to history. Once the snapshot memory is full, no further snapshots will be stored. Existing DTC snapshots will be updated Malfunction Indicator Lamp Logic The MIL will illuminate during key-on, engine-off conditions as a bulb check. After starting, it will extinguish for at least one second to perform a MIL diagnostic test. If any current DTC is present that is commanded to turn on the MIL, it will remain on during engine running conditions. The platform-specific calibration system may disable the MIL on any faults that would otherwise enable it. If a DTC is set up in this manner, all trip functions and current/pending status updates will occur as described, but the MIL will not illuminate. Type B3 and C3 DTC s cannot be forced to illuminate the MIL so will never result in an illuminated MIL. If a catalyst-damaging misfire has been detected, the MIL will flash at 1 Hz. While in firmware update mode, some engine management systems will flash the MIL at a higher frequency

19 2.14 End Of Line / Repaired Vehicle DTC Check In order to verify proper vehicle operation either at the end of the manufacturing process, or after repairs have been performed to a vehicle, it is recommended to operate the vehicle for several minutes while most system checks are performed. An entire trip does not need to be done for most DTC s, however; some faults will take a long time to detect. To facilitate troubleshooting, each fault code is listed with a set of conditions required to trigger a DTC. After a drive cycle has been done, no pending or current DTC s should be found. If a pending fault is found at an EOL test condition, that sensor or system should be checked for proper operation and serviced, if required. Note that the MIL will not illuminate for pending DTC s, so a scan tool must be used to check for fault codes

20 3 DIAGNOSTIC TROUBLE CODE GUIDE 3.1 DTC P0006 Fuel Shutoff A Solenoid Circuit Low The control circuit to the fuel shutoff solenoid is tested for continuity. A faulty solenoid or wiring problems will typically cause this DTC to set. In many cases, the vehicle will not operate when this fault is present as no fuel will be delivered to the engine. Key power voltage greater than 6 volts Actuator power control relay commanded on Actuator power above 10 volts Fuel Shutoff Solenoid A commanded off Output driver IC records low voltage fault (short to ground or open load) Conditions exist for 0.3 seconds DTC Logic: Type A1. Immediate DTC stored Stores freeze-frame data at time of fault MIL illuminates immediately : Verify continuity of the solenoid coil Verify wiring between solenoid and ECM Verify actuator power (controlled by main actuator power control relay) is available at the fuel shutoff control solenoid. 3.2 DTC P0007 Fuel Shutoff A Solenoid Circuit High The control circuit to the fuel shutoff solenoid is tested for continuity. A faulty solenoid or wiring problems will typically cause this DTC to set. In many cases, the vehicle will not operate when this fault is present as no fuel will be delivered to the engine

21 Key power voltage greater than 6 volts Actuator power control relay commanded on Actuator power above 10 volts Fuel shutoff solenoid A output commanded on Output driver IC records high voltage fault (short to power) Conditions exist for 0.3 seconds DTC Logic: Type A1. Immediate DTC stored Stores freeze-frame data at time of fault MIL illuminates immediately : Verify continuity and resistance of the solenoid coil Verify wiring between solenoid and ECM Verify actuator power (controlled by main actuator power control relay) is available at the fuel shutoff control solenoid. 3.3 DTC P0031 Oxygen Sensor 1, Bank 1, Heater Low The ECM is designed to utilize either a four-wire planar oxygen sensor or a Bosch UEGO. The heater element requires ECM control for proper sensor operation. This fault can occur if the oxygen sensor heater control wire has a short-circuit to ground, an open-circuit or blown fuse. No actuator power supply faults recorded Actuator power relay actuated Key power voltage greater than 6 volts Actuator power above 10 volts Oxygen sensor heater duty cycle in off time period Output driver IC records low voltage fault (short to ground or open load) - 9 -

22 Conditions exist for 0.3 seconds DTC Logic: Type B After two consecutive quick trips with a fault, MIL is illuminated. Check heater continuity. If open, replace sensor. Check power circuit for continuity and fuse integrity. Repair fault and/or fuse. 3.4 DTC P0032 Oxygen Sensor 1, Bank 1, Heater High The ECM is designed to utilize a four-wire planar oxygen sensor or a Bosch UEGO. The heater element requires ECM control for proper sensor operation. This fault can occur if the oxygen sensor heater control wire has a short-circuit to power. Conditions to run test, UEGO or planar sensor: No actuator power supply faults recorded Actuator power relay actuated Actuator power above 10 volts Key power voltage greater than 6 volts Oxygen sensor heater duty cycle in on time period Output driver IC records high voltage fault (short to power) Conditions exist for 0.3 seconds OR Conditions to run test, UEGO sensor only: Sensor resistance below 75 ohms Condition exists for 15 seconds DTC Logic: Type B After two consecutive quick trips with a fault, MIL is illuminated

23 Check heater continuity. If below 3 ohms, replace sensor. Check power circuit for continuity and fuse integrity. Repair fault and/or fuse. Check wiring for short circuits. 3.5 DTC P0037 Oxygen Sensor 2, Bank 1, Heater Low The ECM is designed to utilize a four-wire planar oxygen sensor. The heater element requires ECM control for proper sensor operation. This fault can occur if the oxygen sensor heater control wire has a short-circuit to ground, an open-circuit or blown fuse. This fault code is only enabled for systems with post-catalyst oxygen sensors. No actuator power supply faults recorded Actuator power relay actuated Key power greater than 6 volts Actuator power above 10 volts Oxygen sensor heater duty cycle in off time period Output driver IC records low voltage fault (short to ground or open load) Conditions exist for 0.3 seconds DTC Logic: Type B After two consecutive quick trips with a fault, MIL is illuminated. Check heater continuity. If open, replace sensor. Check power circuit for continuity and fuse integrity. Repair fault and/or fuse

24 3.6 DTC P0038 Oxygen Sensor 2, Bank 1, Heater High The ECM is designed to utilize a four-wire planar oxygen sensor. The heater element requires ECM control for proper sensor operation. This fault can occur if the oxygen sensor heater control wire has a short-circuit to power. This fault code is only enabled for systems with post-catalyst oxygen sensors. No actuator power supply faults recorded Actuator power relay actuated Key power voltage greater than 6 volts Actuator power above 10 volts Oxygen sensor heater duty cycle in on time period Output driver IC records high voltage fault (short to power) Conditions exist for 0.3 seconds DTC Logic: Type B After two consecutive quick trips with a fault, MIL is illuminated. Check heater continuity. If below 3 ohms, replace sensor. Check power circuit for continuity and fuse integrity. Repair fault and/or fuse. Check wiring for short circuits. 3.7 DTC P0051 Oxygen Sensor 1, Bank 2, Heater Low The ECM is designed to utilize either a four-wire planar oxygen sensor or a Bosch UEGO. The heater element requires ECM control for proper sensor operation. This fault can occur if the oxygen sensor heater control wire has a short-circuit to ground, an open-circuit or blown fuse. No actuator power supply faults recorded

25 Actuator power relay actuated Key power voltage greater than 6 volts Actuator power above 10 volts Oxygen sensor heater duty cycle in off time period Output driver IC records low voltage fault (short to ground or open load) Conditions exist for 0.3 seconds DTC Logic: Type B After two consecutive quick trips with a fault, MIL is illuminated. Check heater continuity. If open, replace sensor. Check power circuit for continuity and fuse integrity. Repair fault and/or fuse. 3.8 DTC P0052 Oxygen Sensor 1, Bank 2, Heater High The ECM is designed to utilize a four-wire planar oxygen sensor or a Bosch UEGO. The heater element requires ECM control for proper sensor operation. This fault can occur if the oxygen sensor heater control wire has a short-circuit to power. No actuator power supply faults recorded Actuator power relay actuated Key power voltage greater than 6 volts Actuator power above 10 volts Oxygen sensor heater duty cycle in on time period Output driver IC records high voltage fault (short to power) Conditions exist for 0.3 seconds DTC Logic: Type B

26 After two consecutive quick trips with a fault, MIL is illuminated. Check heater continuity. If below 3 ohms, replace sensor. Check power circuit for continuity and fuse integrity. Repair fault and/or fuse. Check wiring for short circuits. 3.9 DTC P0057 Oxygen Sensor 2, Bank 2, Heater Low The ECM is designed to utilize a four-wire planar oxygen sensor. The heater element requires ECM control for proper sensor operation. This fault can occur if the oxygen sensor heater control wire has a short-circuit to ground, an open-circuit or blown fuse. This fault code is only enabled for systems with post-catalyst oxygen sensors. No actuator power supply faults recorded Actuator power relay actuated Key power greater than 6 volts Actuator power above 10 volts Oxygen sensor heater duty cycle in off time period Output driver IC records low voltage fault (short to ground or open load) Conditions exist for 0.3 seconds DTC Logic: Type B After two consecutive quick trips with a fault, MIL is illuminated. Check heater continuity. If open, replace sensor. Check power circuit for continuity and fuse integrity. Repair fault and/or fuse

27 3.10 DTC P0058 Oxygen Sensor 2, Bank 2, Heater High The ECM is designed to utilize a four-wire planar oxygen sensor. The heater element requires ECM control for proper sensor operation. This fault can occur if the oxygen sensor heater control wire has a short-circuit to power. This fault code is only enabled for systems with post-catalyst oxygen sensors. No actuator power supply faults recorded Actuator power relay actuated Actuator power above 10 volts Key power voltage greater than 6 volts Oxygen sensor heater duty cycle in on time period Output driver IC records high voltage fault (short to power) Conditions exist for 0.3 seconds DTC Logic: Type B After two consecutive quick trips with a fault, MIL is illuminated. Check heater continuity. If below 3 ohms, replace sensor. Check power circuit for continuity and fuse integrity. Repair fault and/or fuse. Check wiring for short circuits DTC P0068 MAP/MAF/Throttle Position Correlation The fuelling calculator uses a combination of airflow estimators to determine the correct amount of fuel to deliver. These are compared and corrected as part of the fuelling algorithms. Generally, throttle position airflow estimate is most accurate while the throttle is moving, whereas either speeddensity (MAP) or mass air flow (MAF) sensors will give the best steady-state accuracy. In order to maintain steady-state agreement, a correction factor is applied to the throttle airflow estimate. If this correction exceeds a reasonable amount, and the pressure across the throttle is sufficient to get a good estimate, this DTC will set

28 This DTC may indicate a drifted sensor, a contaminated throttle bore, air duct blockage, or air leakage after the throttle. At small throttle openings, this may set if the IAC is not in the correct position. If this DTC sets during calibration, check the calibration of volumetric efficiency against throttle airflow. Airflow correction factor greater than 180% or below 50% An engine load (relative air flow per cylinder charge) value of at least 10% Engine running at steady-state or mild transient conditions Conditions exist for 5 seconds DTC Logic: Type B After two consecutive quick trips with a fault, MIL is illuminated. : Check for contamination of throttle bore and/or IAC. Check for proper operation of the IAC. Repair IAC related DTC s first. Check for manifold vacuum leakage (gaskets) Check for damaged vacuum hoses DTC P0087 Fuel Rail/System Pressure Too Low This diagnostic trouble code indicates that the fuel rail supply pressure is too low for proper engine operation. Only systems equipped with fuel rail pressure sensors are capable of setting this DTC. At very low fuel pressures, the injectors will not be capable of fuelling the engine, and the system will lean out. In addition, at very low fuel supply pressures, fuel restriction in some fuel mixing assemblies will cause poor or inconsistent fuel flow. Fuel quantity sensor indicates at least 2 MPa pressure. Fuel rail pressure below minimum calibrated fuel pressure value

29 No actuator power relay faults recorded No fuel shutoff solenoid faults recorded No sensor power faults recorded No fuel quantity sensor faults recorded DTC Logic: Type B After two consecutive quick trips with a fault, MIL is illuminated. Monitor fuel rail or regulator inlet pressure during engine operation. Ensure regulator is set correctly Ensure that no restrictions are present in the fuel system Remember that for LPG and CNG systems, much more fuel volume is required, so restrictions that would not even affect a petrol system may make a gaseous fuel system nonfunctional DTC P0088 Fuel Rail/System Pressure Too High This diagnostic trouble code indicates that the fuel rail supply pressure is too high for proper engine operation. Only systems equipped with fuel rail pressure sensors are capable of setting this DTC. In a CNG system, in many cases excessive fuel pressure will result in injectors that will not open. Fuel rail pressure above maximum calibrated fuel pressure value. No actuator power relay faults recorded No fuel shutoff solenoid faults recorded No sensor power faults recorded No fuel quantity sensor faults recorded DTC Logic: Type B

30 After two consecutive quick trips with a fault, MIL is illuminated. Monitor fuel rail or regulator inlet pressure during engine operation. Ensure regulator is set correctly Check regulator for excessive creep (rising pressure when engine is stopped) Check regulator for excessive droop (lowering pressure with higher engine speeds and loads) 3.14 DTC P0093 Large Fuel Rail Leak This diagnostic trouble code indicates that the fuel rail has a significant leak path either into the engine (injector leakage), or to the atmosphere. This test is performed occasionally by allowing the ECM to monitor the leak down rate of the fuel storage pressure sensor or the fuel rail pressure sensor, depending on the system configuration and configuration of fuel shutoff solenoids. Fuel quantity sensor indicates at least 3 MPa pressure when the key is turned off. Fuel quantity sensor indicates a pressure drop of 1 MPa in a programmed amount of time typically three minutes. No actuator power relay faults recorded No fuel shutoff solenoid faults recorded No sensor power faults recorded No fuel quantity sensor faults recorded OR Fuel rail pressure sensor indicates at least 400 kpa g pressure when the key is turned off. Fuel rail pressure sensor indicates a pressure drop of 200 kpa g in a programmed amount of time typically three minutes. No fuel rail pressure sensor faults recorded No fuel level sensor faults recorded No actuator power relay faults recorded No low-pressure fuel shutoff solenoid faults recorded DTC Logic: Type B

31 After two consecutive quick trips with a fault, MIL is illuminated. Monitor fuel rail or regulator inlet pressure after shutting the ignition key off. Observe source of leakage by testing for the presence of tracer odour and/or a leak detection soap bubble leak finding solution. If leakage is outside of the engine (fuel rail, fittings, pressure regulator), find and repair the leakage. If no leaks can be found, disconnect the air hose at the throttle, energize the ignition key (to pressurize the fuel rail), and listen and check for the tracer odour at the throttle body for fuel injector leakage. This is usually easiest with the throttle slightly open DTC P0094 Small Fuel Rail Leak This diagnostic trouble code indicates that the fuel rail has a small but easily detectable leak path either into the engine (injector leakage), or to the atmosphere. This test is performed occasionally by allowing the ECM to monitor the leak down rate of the fuel storage pressure sensor or the fuel rail pressure sensor, depending on the system configuration and configuration of fuel shutoff solenoids. Fuel quantity sensor indicates at least 3 MPa pressure when the key is turned off. Fuel quantity sensor indicates a pressure drop of 1 MPa in a programmed amount of time typically three minutes. No actuator power relay faults recorded No fuel shutoff solenoid faults recorded No sensor power faults recorded No fuel quantity sensor faults recorded OR Fuel rail pressure sensor indicates at least 400 kpa g pressure when the key is turned off. Fuel rail pressure sensor indicates a pressure drop of 200 kpa g in a programmed amount of time typically three minutes

32 No fuel rail pressure sensor faults recorded No fuel level sensor faults recorded No actuator power relay faults recorded No low-pressure fuel shutoff solenoid faults recorded DTC Logic: Type B After two consecutive quick trips with a fault, MIL is illuminated. Monitor fuel rail or regulator inlet pressure after shutting the ignition key off. Observe source of leakage by testing for the presence of tracer odour and/or a leak detection soap bubble leak finding solution. If leakage is outside of the engine (fuel rail, fittings, pressure regulator), find and repair the leakage. If no leaks can be found, disconnect the air hose at the throttle, energize the ignition key (to pressurize the fuel rail), and listen and check for the tracer odour at the throttle body for fuel injector leakage. This is usually easiest with the throttle slightly open DTC P0102 Mass Air Flow Sensor Low Engine airflow may be measured directly using a mass air flow sensor. The sensor may interface to the ECM using either an analogue voltage, or a digital frequency. A frequency signal is converted into a voltage signal in software for processing by the ECM. This generated voltage signal is used for diagnostic configuration. The engine may stall before the DTC sets. No sensor power supply fault recorded MAF signal level below 0.1 volts Engine speed above 100 RPM Condition exists for 1 seconds. Actions taken when fault is detected: MAP is used to generate a simulated MAF sensor reading OR

33 Throttle position is used to generate a simulated MAF sensor reading Long term fuel trim logic is disabled Engine idle speed is raised to prevent stalling DTC Logic: Type A1. Immediate DTC stored Stores freeze-frame data at time of fault MIL illuminates immediately Check +12V power supply to MAF sensor. If absent, repair wiring and/or fuse. Check for continuity of the MAF sensor signal and the ECM. If absent, repair wiring. Check output of MAF with a voltmeter and jumper wires DTC P0103 Mass Air Flow Sensor High Engine airflow may be measured directly using a mass air flow sensor. The sensor may interface to the ECM using either an analogue voltage, or a digital frequency. A frequency signal is converted into a voltage signal in software for processing by the ECM. This generated voltage signal is used for diagnostic configuration. The engine may stall before the DTC sets. Flash code : none MAF signal level above 4.95 volts Engine running above 100 RPM No sensor power supply faults recorded Condition exists for 1.0 seconds. Actions taken when fault is detected: MAP is used to generate a simulated MAF sensor reading OR Throttle position is used to generate a simulated MAF sensor reading Long term fuel trim logic is disabled Engine idle speed is raised to prevent stalling DTC Logic: Type A1. Immediate DTC stored

34 Stores freeze-frame data at time of fault MIL illuminates immediately Check +12V power supply to MAF sensor. If absent, repair wiring and/or fuse. Check sensor ground wire to MAF sensor. If absent, repair wiring. Is an IATS fault also recorded? If so, verify sensor ground to MAF sensor. Check for continuity of the MAF sensor signal and the ECM. If absent, repair wiring. Check output of MAF with a voltmeter and jumper wires DTC P0107 Manifold Absolute Pressure Sensor Low Engine airflow is estimated based on the pressure in the intake manifold. If the sensor becomes disconnected or fails in a short-to-ground condition, this fault will set. The engine may stall before the DTC sets. The engine stopped low MAP DTC may set if the engine speed signal is interrupted while the engine is still running. Engine Running Test: o No sensor power supply fault recorded o MAP signal level below 0.05 volts o Engine speed below 6000 RPM o OR throttle position greater than 10% o Condition exists for 1.0 seconds Engine Stopped Test: o MAP sensor reading below 70 kpa a o No engine speed signal o No sensor power supply fault recorded o Condition exists for 1.0 seconds Actions taken when fault is detected: Throttle position is used to generate a simulated MAP sensor reading OR

35 Mass air flow sensor is used to generate a simulated MAP sensor reading Long term fuel trim logic is disabled Engine idle speed is raised to prevent stalling DTC Logic: Type A1. Immediate DTC stored Stores freeze-frame data at time of fault MIL illuminates immediately Check for sensor power supply DTC s. If present, troubleshoot those DTC s first. Check for +5 V power at the MAP sensor. If not present, check wiring. Connect +5 V sensor power to MAP sensor input. View MAP sensor reading and verify that value is high (above 100 kpa a ), or that the MAP sensor voltage reads 5 V. If not, check sensor wiring. Check MAP sensor output. If no output, replace MAP sensor DTC P0108 Manifold Absolute Pressure Sensor High Engine airflow is estimated based on the pressure in the intake manifold. If the sensor fails in a short-to-power condition, or if the sensor ground signal becomes disconnected, this fault will set. The engine may stall before the DTC sets. Flash code : none No sensor power supply fault recorded MAP signal level above 4.92 volts Condition exists for 1.0 seconds. Actions taken when fault is detected: Throttle position is used to generate a simulated MAP sensor reading OR Mass air flow sensor is used to generate a simulated MAP sensor reading Long term fuel trim logic is disabled Engine idle speed is raised to prevent stalling DTC Logic: Type A

36 Immediate DTC stored Stores freeze-frame data at time of fault MIL illuminates immediately Check for sensor power supply DTC s. If present, troubleshoot those DTC s first. Check for +5 V power at the MAP sensor. If not present, check wiring. Check sensor ground at the MAP sensor. If no continuity, repair wiring. If combined T-MAP sensor and IATS fault is present, repair sensor ground. Check MAP sensor output. If no output, replace MAP sensor DTC P0112 Intake Air Temperature Sensor Low Engine airflow estimation and ignition timing require a measurement of the temperature of the incoming air. A short to ground on this sensor signal will generate this fault. IATS signal below 0.1 volts Condition exists for one second Actions taken when fault is detected: Intake air temperature uses a calculated substitute value DTC Logic: Type B After two consecutive quick trips with a fault, MIL is illuminated Disconnect sensor. Verify temperature sensor voltage reads 5 V. If not, check wiring for short circuit to ground or adjacent terminals. Check resistance of sensor. Verify that it is within specifications

37 3.21 DTC P0113 Intake Air Temperature Sensor High Engine airflow estimation and ignition timing require a measurement of the temperature of the incoming air. An open circuit or a short circuit to power on this sensor signal will generate this fault. IATS signal above 4.85 volts Condition exists for one second Actions taken when fault is detected: Intake air temperature uses a calculated substitute value DTC Logic: Type B After two consecutive quick trips with a fault, MIL is illuminated. Disconnect sensor. Verify temperature sensor voltage reads 5 V. Jumper across IATS harness sensor (sensor ground to IATS). Verify temperature sensor voltage reads 0 V. If not, check harness for continuity. Check resistance of sensor. Verify that it is within specifications DTC P0117 Engine Coolant Temperature Sensor Low Engine airflow estimation, cooling fan control, and ignition timing require a measurement of the temperature of the engine coolant. A short to ground on this sensor signal will generate this fault. ECTS signal below 0.1 volts Condition exists for one second Actions taken when fault is detected: Engine coolant temperature uses a calculated substitute value Engine cooling fan is turned on

38 Air conditioning system is disabled Long-term fuel trims are disabled Trip logic will not utilize engine coolant temperature in its calculations DTC Logic: Type B After two consecutive quick trips with a fault, MIL is illuminated. Disconnect sensor. Verify temperature sensor voltage reads 5 V. If not, check wiring for short circuit to ground or adjacent terminals. Check resistance of sensor. Verify that it is within specifications DTC P0118 Engine Coolant Temperature Sensor High Engine airflow estimation, cooling fan control, and ignition timing require a measurement of the temperature of the engine coolant. An open circuit or a short circuit to power on this sensor signal will generate this fault. ECTS signal above 4.9 volts Condition exists for one second Actions taken when fault is detected: Engine coolant temperature uses a calculated substitute value Engine cooling fan is turned on Air conditioning is disabled Long-term fuel trims are disabled Trip logic will not utilize engine coolant temperature in its calculations DTC Logic: Type B After two consecutive quick trips with a fault, MIL is illuminated

39 Disconnect sensor. Verify temperature sensor voltage reads 5 V. Jumper across sensor harness sensor (sensor ground to sensor signal). Verify temperature sensor voltage reads 0 V. If not, check harness for continuity. Check resistance of sensor. Verify that it is within specifications DTC P0122 Throttle Position Sensor Low The ECM utilizes throttle position information to predict airflow into the engine during a transient condition, for idle speed control and for many auxiliary functions. In an electronic throttle control (ETC) system, this sensor is used as the primary feedback mechanism to control airflow through the engine. ETC systems will use at least two throttle position sensors for redundancy. An open circuit or a short circuit to ground on this sensor signal will generate this fault. An open circuit on the sensor power supply can cause this fault as well. No sensor power supply fault recorded Throttle position signal below 0.1 volts Condition exists for one second Actions taken when fault is detected in non-etc system Engine idle speed is raised to a programmed value (typically, 1300 RPM) Intake manifold pressure is utilized for deceleration and transient fuel control Idle speed control may be erratic Actions taken when fault is detected in an ETC system: Secondary throttle control input (TPS B) is used to maintain position control of the throttle and for fuel control If TPS B input is unavailable (also a DTC set), the throttle motor is returned to a default (fastidle) position by the throttle return spring. DTC Logic: Type B After two consecutive quick trips with a fault, MIL is illuminated

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